Department of Sociology
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These digital collections include theses, dissertations, faculty publications, and datasets from the Department of Sociology. Due to departmental name changes, materials from the following historical department are also included here: Sociology and Anthropology.
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Browsing Department of Sociology by Author "Betsill, Michele, committee member"
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Item Open Access A STIRPAT model of sectoral CO2 emissions at the county scale(Colorado State University. Libraries, 2010) Sztukowski, John, author; Zahran, Sammy, advisor; Peek, Lori, committee member; Betsill, Michele, committee memberBackground: The scientific community agrees that the principal cause of increased surface temperature globally is the accumulation of greenhouse gases (GHGs) in the atmosphere, with carbon dioxide (CO2) emissions from fossil fuel combustion being most important among GHGs. Objectives: To analyze the spatial correspondences between CO2 emissions and anthropogenic variables of population, affluence, and technology in the United States. Methods: Ordinary least squares regression and spatial analytical techniques are used to analyze variation in CO2 emissions based on a modified version of the STIRPAT model. The unit of analysis is the county, with 3108 counties in the contiguous United States analyzed. The CO2 emissions of multiple sectors are analyzed as a function of total county population, income per capita, and climatic variation. Results: Population has a proportional relationship, the strongest association, with CO2 emissions. Affluence has a positive relationship with CO2 emissions with an attainable Environmental Kuznets Curve for the residential sector and total CO2 emissions. Climate, including average winter and summer season temperature, has a positive relationship with total CO2 emissions, although it has a negative relationship with the residential and commercial sectors of CO2 emissions. Technology acts as the residual in the model, accounting for net-positive and net-negative technology. Conclusion: Population growth, and to a smaller extent economic growth, are the driving forces of CO2 at the local level. These findings are consistent with global STIRPAT models. An increase in winter or summer temperature further exacerbates CO2 emissions. Understanding the relationships between these anthropogenic variables and environmental impacts at the local scale is a crucial step in the process of formulating mitigation strategies aimed at reducing CO2 emissions in the US.Item Open Access Multiscalar power, conflict and procedural justice in regulating Colorado's unconventional oil and gas development(Colorado State University. Libraries, 2019) Ryder, Stacia, author; Malin, Stephanie, advisor; Betsill, Michele, committee member; Mao, KuoRay, committee member; Peek, Lori, committee memberTo view the abstract, please see the full text of the document.